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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

[en] ANALYSIS OF CORRUGATED CIRCULAR WAVEGUIDES WHEN USED AS FEEDERS / [pt] ANÁLISE DE GUIAS CIRCULARES CORRUGADAS OPERANDO COMO ALIMENTADORES

LUIZ CLAUDIO ESTEVES 12 February 2008 (has links)
[pt] A aplicação de um guia circular corrugado como alimentador é analisada a partir do conhecimento das distribuições de campo elétrico e magnético no plano focal de refletores parabólicos. O desenvolvimento matemático dos campos no interior da estrutura conduz a expressões para os diagramas de radiação e demais parâmetros de interesse. Diversas peculiaridades inerentes à propagação em estruturas corrugadas ficam caracterizadas ao longo da análise, alcançando-se a notável situação de simetria dos diagramas e polarização cruzada nula. Inclui-se um projeto para utilização de refletores de pequena e grande distância focal. / [en] The use of a corrugated circular waveguide as a feeder is analysed by considering the distributions of eletric and magnetic fields at the focal plane of parabolic reflectors. The mathematical field development inside the structure leads to expressions of radiation patterns and the necessary parameters. Several peculiarities in connection with the propagation in corrugated structures are characterized through the analysis, obtaining the remarkable situation of patterns simmetry and zero cross- polarization. A feeder design for using small and large focal lenght reflectorsis included.
2

A Novel Approach to Label-Free Biosensors Based on Photonic Bandgap Structures

García Castelló, Javier 07 February 2014 (has links)
The necessity of using extremely high sensitivity biosensors in certain research areas has remarkably increased during the last two decades. Optical structures, where light is used to transduce biochemical interactions into optical signals, are a very interesting approach for the development of this type of biosensors. Within optical sensors, photonic integrated architectures are probably the most promising platform to develop novel lab-on-a-chip devices. Such planar structures exhibit an extremely high sensitivity, a significantly reduced footprint and a high multiplexing potential for sensing applications. Furthermore, their compatibility with CMOS processes and materials, such as silicon, opens the route to mass production, thus reducing drastically the cost of the final devices. Optical sensors achieve their specificity and label-free operation by means of a proper chemical functionalization of their surfaces. The selective attachment of the receptors allows the detection of the target analytes within a complex matrix. This PhD Thesis is focused on the development of label-free photonic integrated sensors in which the detection is based on the interaction of the target analytes with the evanescent field that travels along the structures. Herein, we studied several photonic structures for sensing purposes, such as photonic crystals and ring resonators. Photonic crystals, where their periodicity provokes the appearance of multiple back and forth reflections, exhibits the so-called slow-light phenomenon that allows an increase of the interaction between the light and the target matter. On the other hand, the circulating nature of the resonant modes in a ring resonator offers a multiple interaction with the matter near the structure, providing a longer effective length. We have also proposed a novel approach for the interrogation of photonic bandgap sensing structures where simply the output power needs to measured, contrary to current approaches based on the spectral interrogation of the photonic structures. This novel technique consists on measuring the overlap between a broadband source and the band edge from a SOI-based corrugated waveguide, so that we can determine indirectly its spectral position in real-time. Since there is no need to employ tunable equipment, we obtain a lighter, simpler and a cost-effective platform, as well as a real-time observation of the molecular interactions. The experimental demonstration with antibody detection measurements has shown the potential of this technique for sensing purposes / García Castelló, J. (2014). A Novel Approach to Label-Free Biosensors Based on Photonic Bandgap Structures [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/35398

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